Communication system and method

ABSTRACT

A method for communicating between an operator at an operator device and a user recipient includes enabling an operator of the operator device to enter a device-independent unique identifier for a user recipient by requiring interaction between the operator and the operator device without requiring interaction between the operator and software on the operator device that is designed for communication over an IP-based network. The method includes identifying an IP network address associated with the user recipient based on the device-independent unique identifier and routing a message entered by the operator to the determined IP network address.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of and claims priority toU.S. application Ser. No. 10/231,445, filed on Aug. 30, 2002 and titled“Communication System and Method,” now allowed, which claims priorityunder 35 U.S.C. § 119(e) to U.S. Application No. 60/315,712, filed onAug. 30, 2001, titled “Communication System and Method,” now expired,the entire contents all of which are incorporated herein by reference.

TECHNICAL FIELD

This description relates to a system and method that enablecommunication between an operator of a telephone device and a userrecipient at a network-based system.

BACKGROUND

People may communicate with each other by establishing a telephone callover a telephone communication (or telecommunication) network usingtelephone devices that are linked to and through the telecommunicationnetwork. Additionally, people may communicate with each other usingelectronic mail or instant messaging over an Internet Protocol (IP)network using computing devices (such as, for example, computers orcellular telephones) that are linked to and through the IP network.

SUMMARY

In one general aspect, a method for communicating between an operator atan operator device and a user recipient includes enabling an operator ofthe operator device to enter a device-independent unique identifier fora user recipient. The operator is enabled to enter the identifier byrequiring interaction between the operator and the operator devicewithout requiring interaction between the operator and software on theoperator device that is designed for communication over an IP-basednetwork. The method includes identifying an IP network addressassociated with the user recipient based on the device-independentunique identifier and routing a message entered by the operator to thedetermined IP network address.

Implementations may include one or more of the following features. Forexample, the operator device may include a telephone device.

Enabling the operator of the telephone device may include requiringinteraction between the operator and the telephone device withoutrequiring interaction between the operator and software on the telephonedevice that is designed for Internet communication.

Enabling the operator to enter the device-independent unique identifiermay include configuring a server to receive calls from the telephonedevice when the operator enters a dedicated number associated with theserver. The dedicated number associated with the server includes arouting code that identifies the server. Enabling the operator to enterthe device-independent unique identifier may include enabling theoperator to speak the device-independent unique identifier into amicrophone of the telephone device or to type the device-independentunique identifier into a keypad of the telephone device. Enabling theoperator to enter the device-independent unique identifier may includeconfiguring a server to receive a dual tone multifrequency signal fromthe telephone device. Enabling the operator to enter thedevice-independent unique identifier may include enabling the operatorto press a button on the telephone device that is associated with thedevice-independent unique identifier.

Identifying the IP network address may include mapping thedevice-independent unique identifier to the IP network address oraccessing a database that stores the device-independent uniqueidentifier and the IP network address associated with thatdevice-independent unique identifier.

Routing the message may include routing the message to a computingsystem associated with the IP network address. Routing the message mayinclude transmitting voice packets of the entered message ortransmitting data packets of the entered message. Routing the messagemay include identifying a computing system currently associated with theidentified IP network address.

The method may include formatting the message entered by the telephonedevice operator into a format suitable for transmission using IPprotocol. The method may include receiving the message entered by theoperator. The message entered by the operator may include a speechsignal.

Enabling the operator to enter the device-independent unique identifiermay include receiving a dual tone multifrequency signal from thetelephone device.

The method may include enabling the operator to enter the message usingthe telephone device or by speaking into a microphone in the telephonedevice.

The operator device may include a television device, a land-basedtelephone device, or a mobile hand-held computing device.

In another general aspect, a method for communicating between anoperator at an operator device and a user recipient includes receivingfrom the operator device a data structure including a first portion anda second portion. The first portion of the data structure identifies thesecond portion of the data structure as uniquely identifying a userrecipient. The method includes mapping the second portion to a networkaddress of a computing system currently connected to a network on whichthe user recipient is identifiable. The method also includes routing amessage received from the operator device to the computing system at thenetwork address.

Implementations may include one or more of the following features. Forexample, the operator device may include a telephone device. The methodmay include converting the message from a format suitable for telephoniccommunication to a format suitable for routing to the computing system.

Mapping of the second portion to a network address may include accessinga database that stores the network address of the computing systemcurrently connected to the network on which the user is identifiable.

The message may include a short messaging system (SMS) message or amultimedia message (MMM).

The data structure may include a dual tone multifrequency signal.

The method may further include enabling the operator to enter themessage using the telephone device.

The data structure may be received from a mobile carrier or a land-basedcarrier.

The method may include parsing the data structure to determine the firstportion and the second portion. The may also include prompting theoperator to enter the data structure at the telephone device.

The operator device may include a television device, a standardland-based telephone device, or a mobile hand-held computing device.

In another general aspect, a method for communicating between anoperator at an operator device and a user recipient includes receivingan identifier from the operator device, the identifier uniquelyidentifying a user recipient. The method includes mapping the identifierto a network address of a computing system currently connected to anetwork on which the user recipient is identifiable. The method alsoincludes receiving an audio message from the operator device and routingthe audio message to the computing system at the network address.

Implementations may include one or more of the following features. Forexample, the operator device may include a telephone device. The methodmay include converting the received audio message from a format suitablefor communication over a telephone network into a format suitable forrouting to the computing system. Mapping the identifier to a networkaddress may include accessing a database that stores the network addressof the computing system currently connected to the network on which theuser is identifiable.

The method may include enabling the operator to enter the audio messageat the telephone device. The method may include prompting or enablingthe operator to enter the identifier using the telephone device.

The operator device may include a television device, a standardland-based telephone device, or a mobile hand-held computing device.

Aspects of the techniques and systems can include one or more of thefollowing advantages. The communication system and method enables a userat a telephone device to initiate communication with other devicesconnected to an IP-based network. The operator only needs to remember orstore a single telephone number to access the negotiating device. Theoperator then enters the message and the unique identifier for the userrecipient.

Other features and advantages will be apparent from the description, thedrawings, and the claims.

DESCRIPTION OF DRAWINGS

FIG. 1 is a block diagram of a communication system.

FIG. 2 is a block diagram of a telephone device used in thecommunication system of FIG. 1.

FIG. 3 is an expansion of a computing system shown in the block diagramof FIG. 1.

FIGS. 4, 7, and 8 are flow charts of procedures performed by thecommunication system of FIG. 1.

FIG. 5 is a block diagram of data and/or a data structure transmittedthrough the communication system of FIG. 1.

FIG. 6 is a block diagram of a mapping used in the communication systemof FIG. 1.

Like reference symbols in the various drawings indicate like elements.

DETAILED DESCRIPTION

A communication system is described that permits an operator at atelephone device to send a message through a telephone-basedcommunication link to a user recipient located at a computing device.The message may include a text message or a voice message. In eithercase, the operator uses the telephone device to provide data includingthe message, a unique identifier of the user recipient, and a routingcode for a gateway device that enables communication of the message overa data-based network other than a telephone network. As will bedescribed in greater detail, the unique identifier for the userrecipient may be signaled based on the entry of the routing code for thegateway device.

For brevity, several elements in the figures described below arerepresented as monolithic entities. However, as would be understood byone skilled in the art, these elements each may include numerousinterconnected computers and components designed to perform a set ofspecified operations and/or dedicated to a particular geographicalregion.

Referring to FIG. 1, a communication system 100 includes a telephonedevice 105, a negotiating device 106 within a telephone-basedcommunication link 107, a gateway device 110 that communicates with thenegotiating device 106 through a data-based communication link 115 thatis not telephone-based, one or more computing systems 120 thatcommunicate with the gateway device 110 through a communication link130, a network database 135 that is accessed by the gateway device 110,and a negotiating database 136 that is accessed by the negotiatingdevice 106.

Briefly, when an operator at the telephone device 105 dials a number,the telephone device 105 produces a data structure of that number, whichis then routed to the negotiating device 106. The negotiating device 106receives the data structure, which has been routed through thetelephone-based communication link 107 from the telephone device 105,perceives one or more portions of the data structure and looks up thoseperceived portions in the negotiating database 136 to determine where todirect or route the data structure. If the negotiating device 106determines that the data structure includes a telephone number, then itroutes a received message through a telephone-based communication link(either link 107 or other link not shown) to an operator at a receivingtelephone device (not shown). If the negotiating device 106 determinesthat the data structure does not include a telephone number, then thenegotiating device 106 routes the data structure and the receivedmessage through the data-based communication link 115 to the gatewaydevice 110. The negotiating device 106 may remove information from thedata structure before routing to enable the gateway device 110 toproperly read the data structure. Alternatively, the negotiating device106 may simply send all of the information in the original datastructure to the gateway device 110. Furthermore, the negotiating device106 may alter the format of the data structure to enable the datastructure to be routed through the data-based communication link 115. Inany case, the gateway device 110 perceives one or more portions of thedata structure, looks up those perceived portions in the networkdatabase 135 and delivers the received message to an identifiedcomputing system 120.

The telephone-based communication link 107 may include analog or digitalwired and wireless telephone-based networks 145, such as, for example,plain old telephone service (POTS), asymmetric digital subscriber line(ADSL), public switched telephone network (PSTN), integrated servicesdigital network (ISDN), and digital subscriber line (xDSL). Thetelephone-based communication link 107 may include communicationpathways 150, 155 that enable communication through the one or moretelephone-based networks 145. Each of the communication pathways 150,155 may include, for example, a wired, wireless, cable or satellitecommunication pathway.

Additionally, the telephone-based communication link 107 includes thenegotiating device 106. The negotiating device 106 enables delivery ofmessages from the telephone device 105 to the gateway device 110 throughthe data-based communication link 115. The negotiating device 106 actsas a router that examines the data structure received from the telephonedevice 105, looks up information in the database 136 to determine wherethe message should be routed, and then routes the message and the datastructure or a portion of the data structure to the appropriate gatewaydevice 110. Thus, the negotiating device 106 is configured to receiveinformation through the telephone-based communication link 107 and todeliver information through the data-based communication link 115. Inone implementation, the negotiating device 106 has an assigned routingcode that may be dialed by the user at the telephone device 105 and thatis recognized by a telephone carrier within the telephone-based network145 as corresponding to the negotiating device 106. For instance, entryby an operator of #427 signals to the telephone carrier that the messageshould be routed to the negotiating device 106. If the telephone carrieris a mobile short messaging system (SMS) carrier, the negotiating device106 may be configured to receive SMS messages from telephone device 105over telephone-based communication link 107. Alternatively, thenegotiating device 106 may be configured to receive voice data from thetelephone device 105 over the telephone-based communication link 107. Inanother implementation, the negotiating device 106 may be configured toprompt the operator at the telephone device 105 for information that thenegotiating device 106 requires when accessing the negotiating database136.

The data-based communication link 115 may include one or more data-baseddelivery networks 160, for example, IP-based networks (such as theInternet, World Wide Web, WANs, LANs, analog or digital networks,); X.25protocol-based networks, or other non-telephone-based deliverymechanisms for carrying data or information to the gateway device 110.The data-based communication link 115 may include data-basedcommunication pathways 165, 170 that enable communication through theone or more data-based delivery networks 160. Each of the communicationpathways 165, 170 may include, for example, a wired, wireless, cable orsatellite communication pathway.

The gateway device 110 enables delivery of messages from the data-basedcommunication link 115 to the computing system 120 through thecommunication link 130. The gateway device 110 may act as a router thatexamines one or more portions of the data structure received from thenegotiating device 106, looks up information in the database 135 todetermine where the message should be routed, and then routes themessage to the appropriate computing system 120. Thus, the gatewaydevice 110 is configured to receive information through the data-basedcommunication link 115.

The communication link 130 typically includes some type of deliverynetwork making a direct or an indirect communication between the gatewaydevice 110 and the computing device 120, irrespective of physicalseparation among these devices. Examples of a delivery network includeIP-based networks such as the Internet, the World Wide Web, WANs, LANs;analog or digital wired and wireless telephone networks (that is, PSTN,ISDN, and xDSL); radio; television; cable; satellite; and/or otherdelivery mechanisms for carrying data or information to a particularcomputing device 120.

The computing system 120 is a system at which a user recipient canreceive messages. For instance, the computer system 120 may include oneor more telephone devices 108 (call or standard) that each interfacewith the gateway device 110 through a telephone delivery network 175.Or, the computer system 120 may include one or more standard computingdevices 172, as described below with respect to FIG. 3, that eachinterface with the gateway device 110 through a delivery network 185such as, for example, IP-based networks or cable networks. In any case,computing system 120 is connected to the gateway device 110 through thecommunication link 130.

Referring to FIG. 2, the telephone device 105 or 108 may be a standardtelephone, such as, for example, a cordless telephone, a cordedtelephone, a payphone, or a cellular telephone. The telephone device 105or 108 includes internal circuitry connected to user input devices toreceive input and to transmit and receive a telephone message. Thetelephone device 105 or 108 includes a speaker, for example, at the backor front of the device 105 or 108 (not shown) for emitting audio signalsand a microphone, for example, positioned, beneath openings 200 in thehousing of the telephone device 105 or 108, for receiving audio signals.The telephone device 105 also includes a keypad 205 for enabling theoperator to dial a number or select a letter. The telephone device 105may include storage for addresses or the unique identifiers. Thetelephone device 105 may be configured with speed dial buttons thatenable the operator to press a single button to dial two or morenumbers.

The telephone device 105 also may include a dedicated input device 210on the surface of its housing to receive input from the operator thatindicates that the operator wishes to send a message to a user recipientat a computing system 120. The dedicated input device 210 may bepre-programmed to enter a set of numbers or the dedicated input device210 may be configurable by an operator upon purchase of the telephonedevice 105. The telephone device 105 may also include software andcircuitry configured for network communication and/or software andcircuitry configured for voice recognition.

In the description, the communication system 100 is described asincluding a telephone device 105. However, in other implementations, thecommunication system 100 may instead include an operator device, suchas, for example, a television device, a cellular or land-based telephonedevice, or a mobile hand-held computing device such as a personaldigital assistant. In these other implementations, the telephone-basedcommunication link 107 is not necessarily telephone-based, but may be,for example, cable-based or wireless-based depending on what type ofdevice the operator is using.

Referring also to FIG. 3, the computing device 172 typically includesone or more devices 320 and/or controllers 325. For example, thecomputing device 172 may include one or more general-purpose computers(that is, personal computers), one or more special-purpose computers(that is, devices specifically programmed to communicate with each otherand/or the computing device 172), or a combination of one or moregeneral-purpose computers and one or more special-purpose computers. Thecomputing device 172 may be arranged to operate within or in concertwith one or more other systems, such as, for example, one or more LocalArea Networks (LANs) and/or one or more Wide Area Networks (WANs).

The device 320 is generally capable of executing instructions under thecommand of the controller 325. The device 320 is connected to thecontroller 325 by a wired or wireless data pathway 330 capable ofdelivering data.

The device 320 and the controller 325 each typically include one or morehardware components and/or software components. An example of a device320 is a general-purpose computer (that is, a personal computer) capableof responding to and executing instructions in a defined manner. Otherexamples include a special-purpose computer, a workstation, a server, adevice, a component, other physical or virtual equipment or somecombination thereof capable of responding to and executing instructions.

An example of controller 325 is a software application loaded on thedevice 320 for commanding and directing communications enabled by thedevice 320. Other examples include a program, a piece of code, aninstruction, a device, a computer, a computer system, or a combinationthereof, for independently or collectively instructing the device 320 tointeract and operate as described. The controller 325 may be embodiedpermanently or temporarily in any type of machine, component, physicalor virtual equipment, storage medium, or propagated signal capable ofproviding instructions to the device 320.

The device 320 typically includes a general purpose computer 370 havingan internal or external storage 372 for storing data and programs suchas an operating system 374 (for example, DOS, Windows®, Windows® 95,Windows® 98, Windows® 2000, Windows® NT, Windows® Millennium Edition,Windows® XP, OS/2, and Linux) and one or more application programs.

Examples of application programs include authoring applications 376 (forexample, word processing, database programs, spreadsheet programs,presentation programs, and graphics programs) capable of generatingdocuments or other electronic content; client applications 378 (forexample, AOL client, CompuServe client, AIM client, AOL TV client, ISPclient, and ICQ client) capable of communicating with other computerusers, accessing various computer resources, and viewing, creating, orotherwise manipulating electronic content; and browser applications 380(for example, Netscape's Navigator and Microsoft's Internet Explorer)capable of rendering standard Internet content.

Additionally, the device 320 includes one or more plug-in applications381 that are installed and used as a part of the client applications378. The plug-in applications 381 enable the device 320 to transmitmessages to and from the gateway device 110. Plug-in applications 381include one or more of: a description of internal protocols; a messageapplication that is activated when a message is received through thegateway device 110 that originated from the telephone device 105; aninterface application that implements user interface components andbusiness rules; and a status application that establishes the status ofthe message based on information from the telephone application and/orthe message itself.

The general-purpose computer 370 also includes a central processing unit(CPU) 382 for executing instructions in response to commands from thecontroller 325. In one implementation, the controller 325 includes oneor more of the application programs installed on the internal orexternal storage 372 of the general-purpose computer 370. In anotherimplementation, the controller 325 includes application programsexternally stored in and executed by one or more device(s) external tothe general-purpose computer 370.

The general-purpose computer typically will include a communicationdevice 384 for sending and receiving data. One example of thecommunication device 384 is a modem. Other examples include atransceiver, a set-top box, a communication card, a satellite dish, anantenna, or another network adapter capable of transmitting andreceiving data over the communication link 130 through a wired orwireless data pathway. The general-purpose computer 370 also may includea television (TV) tuner 386 for receiving television programming in theform of broadcast, satellite, and/or cable TV signals. As a result, thedevice 320 can selectively and/or simultaneously display network contentreceived by communication device 384 and television programming contentreceived by the TV tuner 386.

The general-purpose computer 370 typically will include an input/outputinterface 388 to enable a wired or wireless connection to variousperipheral devices 390. Examples of peripheral devices 390 include, butare not limited to, a mouse 391, a mobile phone 392, a personal digitalassistant (PDA) 393, a keyboard 394, a display monitor 395 with orwithout a touch screen input, and/or a TV remote control 396 forreceiving information from and rendering information to subscribers.Other examples may include voice recognition and synthesis devices.

Although FIG. 3 illustrates devices such as a mobile telephone 392, aPDA 393, and a TV remote control 396 as being peripheral with respect tothe general-purpose computer 370, in another implementation, suchdevices may themselves include the functionality of the general-purposecomputer 370 and operate as the device 320. For example, the mobilephone 392 or the PDA 393 may include computing and networkingcapabilities, and may function as a device 320 by accessing one or moredelivery networks within the communication link 130 and by communicatingwith other computing devices 172 and/or the gateway device 110.

Referring to FIG. 4, the gateway device 110 performs a procedure 400 forenabling communication between the operator at the telephone device 105and a user recipient at the computing system 120. Initially, the gatewaydevice 110 receives a device-independent unique identifier for a userrecipient (step 402). While the operator is required to interact withthe telephone device 105 when entering this unique identifier, theoperator is not required to interact with software on the telephonedevice 105 that is designed for communication over an Internet protocol(IP)-based network. The operator can interact with the telephone device105 by typing a number using the keypad 205 or by accessing a numberstored in memory within the telephone device 105.

Referring to FIG. 5, the gateway device 110 receives thedevice-independent unique identifier 500 in the form of a data packet505 received at and routed from the negotiating device 106. The gatewaydevice 110 may receive the routing code 510 if the negotiating device106 does not strip the routing code 510 from the data packet 505 beforedelivery through the data-based communication link 115. The gatewaydevice 110 enables the entered message 515 to be sent to the userrecipient indicated by the entered device-independent unique identifier(step 405).

Next, with reference to FIG. 6, the gateway device 110 identifies arecipient address 600 that may be, for example, an (IP) network address605 or a telephone number 610 associated with the user recipient (step410). The gateway device 110 may perform such identification byaccessing or searching the network database 135, which stores thedevice-independent unique identifiers 500 for user recipients and mapseach unique identifier 500 to a recipient address 600. The uniqueidentifier 500 for a user recipient is a numeric sequence chosen by orgiven to the user recipient of a network during registration for use asan identifier of the user recipient when that user recipient isconnected to the network or otherwise. The unique identifier 500 isdevice-independent in that the user recipient may be identified atdifferent devices configured to connect to the network, regardless ofthe identification or location of the device. As shown, the uniqueidentifier may be a unique identification number (UIN). The UIN isrecognized by the computing system 120 and by other computing systems120 that communicate with each other through the gateway device 110. Therecipient address 600 that maps to a particular unique identifier 500corresponds to a computing system 120 currently connected to the gatewaydevice 110 that enables identification of the user recipient and/or herstatus. Once the identification is made, the gateway device 110 routesentered message to the identified recipient address and a computingsystem 120 at which the user recipient is currently identified (step415).

The message may be entered at the telephone device 105 in any suitableimplementation. However, two particular implementations are describedbelow. In the first implementation, the message is entered as a voicemessage in which the operator speaks the message into the microphone ofthe telephone device 105. In the second implementation, the message isentered as a text message using, for example, the keypad 205 of thetelephone device 105.

Referring also to FIG. 7, in one implementation, the communicationsystem 100 routes a message 515 to a computing system 120 according to aprocedure 700. The procedure 700 is described as being performed by thenegotiating device 106, which acts as an interactive voice response(IVR) server that receives an audio message and a data packet 505 fromthe telephone device 105, and the gateway device 110, which receives theUIN 500 and the audio message 515 from the IVR server 106. Nevertheless,the procedure 700 may be performed by other systems or combinations ofsystems within the communication system 100.

Initially in the procedure 700, the IVR server 106 receives acommunication request from the operator (step 705). For example, theoperator dials a telephone number associated with the IVR server 106 anda telephone call is effectively established through the telephone-basedcommunication link 107 between the IVR server 106 and the telephonedevice 105. If a routing number 510 has not yet been received, the IVRserver 106 prompts the operator for the routing number 510 (step 706),which will enable the IVR server 106 to determine where to direct thedata. The routing code 510 may be a part of a data structure 505produced by the telephone device 105. If the IVR server 106 received therouting code 510 without the message 515 or the UIN 500 or if thegateway device 110 receives the message 515 without the UIN 500, the IVRserver 106 may, at any time, prompt the operator for this additionalinformation (step 710) by, for example, sending an audio signal to thetelephone device 105 requesting that the operator enter her message orUIN. Additionally, the IVR server 106 converts the received audiomessage from a format suitable for communication over thetelephone-based communication link 107 into a format suitable forrouting to the computing system 120 through the data-based communicationlink 115 (step 715). For example, the IVR server 106 may use voice overIP (VoIP) to accomplish this conversion.

The IVR server 106 accesses the negotiating database 136 to determinewhere to direct or route the data (step 720). If the negotiating device106 determines that the data structure includes a telephone number, thenit routes the message through a telephone-based communication link (forexample, link 107) to an operator at a receiving telephone device (notshown). If the negotiating device 106 determines that the data structureis not a telephone number but instead corresponds to a number associatedwith the gateway device 110, then the IVR server 106 routes or deliversthe data (which includes the converted message 515 and the UIN 500)through the data-based communication link 115 to the gateway device 110(step 725).

Upon receipt of the UIN 500 (step 730) and the converted audio message(step 735) from the IVR server 106, the gateway device 110 identifiesthe recipient address 600 of a computing system 120 currently connectedto the network on which the user recipient is identifiable and thatcorresponds to the received UIN 500 (step 740) by, for example, lookingup the UIN 500 in the network database 135 and matching the UIN 500 withthe recipient address 600. The gateway device 110 routes the convertedaudio message to the computing system 120 at the recipient address 600(step 745).

Referring also to FIG. 8, in another implementation, the communicationsystem 100 routes a message 515 to a computing system 120 according to aprocedure 800. The negotiating device 106 acts as data server (forexample, a short message system (SMS) server or a multimedia messagesystem (MMM) server) that receives the message 515 in the appropriateformat and the unique identifier 500 along with the routing code 510.Thus, if the data server is an SMS server, the message 515 is formattedas an SMS message and if the data server is an MMM server, the message515 is formatted as an MMM message. For clarity, the description belowassumes that the text server is a SMS server 106 that receives SMSmessages.

The SMS server 106 acts as an intermediary server that negotiates andmaps the SMS message 515 to the gateway device 110, which ultimatelydelivers the SMS message 515 to the computing system 120. In thisimplementation, the telephone device 105 may be cellular telephone andthe telephone-based communication link 107 may be a signaling system 7(SS7) link used in a global system for mobile (GSM) communication link,thus enabling the cellular telephone to transmit SMS messages to thegateway device 110. The telephone-based communication link 107 mayinclude, as an alternative to the GSM, a TDMA or CDMA.

The SMS server 106 receives from the telephone device 105 acommunication request that may be in the form of the data structure 505(step 805). The operator enters the data using, for example, the keypad205 of the telephone device 105. The data structure includes a firstportion (that is, the routing code 510) that enables the SMS server 106to route the call and a second portion (that is, the unique identifieror UIN 500) that will be used by the gateway device 110 to identify therecipient address 600. The routing code 510 may be allocated by the SMScarrier for SMS messages over the GSM carrier to the gateway device 110.The routing code 510, as discussed, identifies or signals to the SMSserver 106 and/or the gateway device 110 that the UIN 500 in the datauniquely identifies the user recipient. Thus, the first portion may havebeen parsed by the GSM carrier as including a country code, followed bya prefix for the GSM carrier, followed by a signaling number allocatedfor the host server for SMS messages. Alternatively or additionally, theSMS server 106 parses the call (step 807) to determine that the message515 is to be routed to a user recipient because the routing code 510indicates the unique identifier 500 in the data structure.

For example, as shown in FIG. 5, the data structure 505 may be “27 83427 1000000<message>,” where “27” is a country code, “83” is a prefixfor the GSM carrier, “427” is the first portion, that is, the routingcode 510 allocated by the carrier to the gateway device 110 that signalsto the gateway device 110 that the second portion, “1000000” uniquelyidentifies the user recipient. In this example, “<message>” is the SMSmessage.

The SMS server 106 accesses the negotiating database 136 to determinewhere to route the call based on the routing code 510 (step 810). Ifneeded, the SMS server 106 converts the SMS message from a formatsuitable for communication over the telephone-based communication link107 into a format suitable for routing to the computing system 120 overthe data-based communication link 115 and the communication link 130(step 812). Then, the SMS server 106 routes the converted message withthe unique identifier to the gateway device 110 if the routing code 510maps to the gateway device 110 (step 815).

Upon receipt of the UIN 500 (step 820), the gateway device 110 maps theUIN 500 of the data structure to a recipient address 600 of a computingsystem 120 currently connected to a network on which the user recipientis identifiable (step 825). The gateway device 110 receives the SMSmessage (step 830). Then, the gateway device 110 routes the SMS messageto the computing system 120 at the recipient address (step 840).

The gateway device 110 may prompt the operator to enter data at thetelephone device 105 if the operator has recently received an SMSmessage from a user at a computing system 120.

Other implementations are within the scope of the following claims. Forexample, the IVR server may perform speech recognition on the audiomessage to convert the audio message into a text message fortransmission to the computing system 120. Likewise, the IVR server mayenable the operator to speak the identifier into the microphone on thetelephone device 105 and may perform speech recognition on the spokenidentifier to determine the identifier.

In another implementation, the data-based communication link 115 maystrip the first portion or routing code 515 from the data structure 500before sending to the gateway device 110. In this way, the gatewaydevice 110 receives a data structure 500 that includes the secondportion or UIN 505 and the message 510.

1. A method of sending messages with a mobile device, the methodcomprising: receiving, at a mobile device and from a mobile device user,input indicating: a first recipient identifier associated with a firstrecipient able to receive messages using the Internet, and a firstmessage body; formatting, with the mobile device, a first messageaccording to a data structure corresponding to a short message servicemessage, the first message being formatted to include: the firstrecipient identifier associated with the first recipient able to receivemessages using the Internet, the first message body, and a routing codeassociated with a negotiating device that is configured to receive shortmessage service messages and connected to the Internet; sending, fromthe mobile device, the formatted first message across a telephonenetwork to the negotiating device; receiving, at the mobile device andfrom the mobile device user, further input indicating: a secondrecipient identifier associated with a second recipient able to receivemessages using the Internet, and a second message body; formatting, withthe mobile device, a second message according to the data structurecorresponding to the short message service message, the second messagebeing formatted to include: the second recipient identifier associatedwith the second recipient able to receive messages using the Internet,the second message body, and the routing code; and sending, from themobile device, the formatted second message across the telephone networkto the negotiating device.
 2. The method of claim 1 wherein the firstmessage is sent to the negotiating device before the second message issent to the negotiating device.
 3. The method of claim 1 wherein thefirst message is sent to the negotiating device before the secondmessage is formatted.
 4. The method of claim 1 wherein sending theformatted first to the negotiating device includes sending the formattedfirst to a negotiating device configured to access a database thatstores a device address, associated with the recipient identifier, of anInternet-connected-device.
 5. The method of claim 4 wherein sending theformatted first message to the negotiating device configured to accessthe database that stores the device address of an Internet connecteddevice includes sending the formatted first message to the negotiatingdevice configured to access a database that stores the recipientidentifier and an IP network address associated with the recipientidentifier.
 6. The method of claim 5 further comprising routing thefirst message body to a computing system associated with the IP networkaddress associated with the recipient identifier.
 7. The method of claim5 wherein routing the first message body includes identifying acomputing system currently associated with the IP network addressassociated with the first recipient identifier.
 8. The method of claim 5further comprising formatting the first message body into a formatsuitable for transmission using IP protocol.
 9. The method of claim 4wherein sending the formatted first message to a negotiating deviceconfigured to access the database includes sending the formatted firstmessage to a negotiating device configured to access an entry in thedatabase that reflects an association between the first recipientidentifier and the device address corresponding to theInternet-connected device, wherein the association is maintained in thedatabase prior to the receipt of the formatted first message.
 10. Themethod of claim 1 wherein sending the formatted first message to thenegotiating device includes sending the formatted first message todistributed components including a gateway connected to a data-basedcommunication link.
 11. The method of claim 1 wherein sending theformatted first message to the negotiating device includes sending theformatted first message to a negotiating device configured to parse thefirst message to determine the first recipient identifier and the firstmessage body.
 12. The method of claim 1 in which the first recipientidentifier specifies at least one of a user and a logical address of anidentity.
 13. A method of sending messages with a mobile device, themethod comprising: receiving, at a mobile device and from a mobiledevice user, input indicating: a first recipient identifier associatedwith a first recipient able to receive messages using the Internet, anda first message body; formatting, with the mobile device, a firstmessage according to a data structure corresponding to a multimedia textmessage, the first message being formatted to include: the firstrecipient identifier associated with the first recipient able to receivemessages using the Internet, the first message body, and a routing codeassociated with a negotiating device that is configured to receivemultimedia text messages and connected to the Internet; sending, fromthe mobile device, the formatted first message across a telephonenetwork to the negotiating device; receiving, at the mobile device andfrom the mobile device user, further input indicating: a secondrecipient identifier associated with a second recipient able to receivemessages using the Internet, and a second message body; formatting, withthe mobile device, a second message according to the data structurecorresponding to the multimedia text message, the second message beingformatted to include: the second recipient identifier associated withthe second recipient able to receive messages using the Internet, thesecond message body, and the routing code; and sending, from the mobiledevice, the formatted second message across a telephone network to thenegotiating device.
 14. The method of claim 13 wherein formatting thefirst message further includes formatting the first message to includeaudio or visual data.
 15. The method of claim 13 wherein the firstmessage is sent to the negotiating device before the second message issent to the negotiating device.
 16. The method of claim 13 wherein thefirst message is sent to the negotiating device before the secondmessage is formatted.
 17. The method of claim 13 wherein sending theformatted first message to the negotiating device includes sending theformatted first message to a negotiating device configured to access adatabase that stores a device address, associated with the recipientidentifier, of an Internet-connected-device.
 18. The method of claim 17wherein sending the formatted first message to the negotiating deviceconfigured to access the database that stores the device address of anInternet connected device includes sending the formatted first messageto the negotiating device configured to access a database that storesthe recipient identifier and an IP network address associated with therecipient identifier.
 19. The method of claim 18 further comprisingrouting the first message body to a computing system associated with theIP network address associated with the recipient identifier.
 20. Themethod of claim 18 wherein routing the first message body includesidentifying a computing system currently associated with the IP networkaddress associated with the first recipient identifier.
 21. The methodof claim 18 further comprising formatting the first message body into aformat suitable for transmission using IP protocol.
 22. The method ofclaim 17 wherein sending the formatted first message to a negotiatingdevice configured to access the database includes sending the formattedfirst message to a negotiating device configured to access an entry inthe database that reflects an association between the first recipientidentifier and the device address corresponding to theInternet-connected device, wherein the association is maintained in thedatabase prior to the receipt of the formatted first message.
 23. Themethod of claim 13 wherein sending the formatted first message to thenegotiating device includes sending the formatted first message todistributed components including a gateway connected to a data-basedcommunication link.
 24. The method of claim 13 wherein sending theformatted first message to the negotiating device includes sending theformatted first message to a negotiating device configured to parse thefirst message to determine the first recipient identifier and the firstmessage body.
 25. The method of claim 13 in which the first recipientidentifier specifies at least one of a user and a logical address of anidentity.
 26. A method of sending messages with a mobile device, themethod comprising: receiving, at a mobile device and from a mobiledevice user, input indicating: a first recipient identifier associatedwith a first recipient able to receive messages using the Internet, anda first message body; formatting, with the mobile device, a firstmessage according to a data structure corresponding to a text message,the first message being formatted to include: the first recipientidentifier associated with the first recipient able to receive messagesusing the Internet, the first message body, and a routing codeassociated with a negotiating device that is configured to text messagesand connected to the Internet; sending, from the mobile device, theformatted first message across a telephone network to the negotiatingdevice; receiving, at the mobile device and from the mobile device user,further input indicating: a second recipient identifier associated witha second recipient able to receive messages using the Internet, and asecond message body; formatting, with the mobile device, a secondmessage according to the data structure corresponding to the textmessage, the second message being formatted to include: the secondrecipient identifier associated with the second recipient able toreceive messages using the Internet, the second message body, and therouting code; and sending, from the mobile device, the formatted secondmessage across a telephone network to the negotiating device.
 27. Themethod of claim 26 wherein the first message is sent to the negotiatingdevice before the second message is sent to the negotiating device. 28.The method of claim 26 wherein the first message is sent to thenegotiating device before the second message is formatted.
 29. Themethod of claim 26 wherein sending the formatted first message to thenegotiating device includes sending the formatted first message to anegotiating device configured to access a database that stores a deviceaddress, associated with the recipient identifier, of anInternet-connected-device.
 30. The method of claim 29 wherein sendingthe formatted first to the negotiating device configured to access thedatabase that stores the device address of an Internet connected deviceincludes sending the formatted first to the negotiating deviceconfigured to access a database that stores the recipient identifier andan IP network address associated with the recipient identifier.
 31. Themethod of claim 30 further comprising routing the first message body toa computing system associated with the IP network address associatedwith the recipient identifier.
 32. The method of claim 30 whereinrouting the first message body includes identifying a computing systemcurrently associated with the IP network address associated with thefirst recipient identifier.
 33. The method of claim 30 furthercomprising formatting the first message body into a format suitable fortransmission using IP protocol.
 34. The method of claim 29 whereinsending the formatted first and second messages to a negotiating deviceconfigured to access the database includes sending the formatted firstand second messages to a negotiating device configured to access anentry in the database that reflects an association between the firstrecipient identifier and the device address corresponding to theInternet-connected device, wherein the association is maintained in thedatabase prior to the receipt of the formatted first message.
 35. Themethod of claim 26 wherein sending the formatted first and secondmessages to the negotiating device includes sending the formatted firstmessage to distributed components including a gateway connected to adata-based communication link.
 36. The method of claim 26 whereinsending the formatted first and second messages to the negotiatingdevice includes sending the formatted first and second messages to anegotiating device configured to parse the first and second messages todetermine the first and second recipient identifiers and the first andsecond message bodies.
 37. The method of claim 26 in which the firstrecipient identifier specifies a user or logical address of an identity.